WO2002024505A1 - Compressed air preparation device for motor vehicles and method for regenerating the drying agent of an air dryer of a compressed air supply system of a motor vehicle - Google Patents

Abstract

The invention relates to a compressed air preparation device for motor vehicles, which comprises an electronic control unit (6) and a regeneration device (11), whereby the regeneration device (11) is controlled by the electronic control unit (6). The invention also relates to a method for regenerating the drying agent of an air dryer (8) of a compressed air supply system of a motor vehicle. The inventive compressed air preparation device is characterized in that after switching off the motor vehicle, the regeneration device (11) is controlled by the control unit (6) in a manner that enables the execution of at least one regeneration cycle. The inventive method is characterized by the following method steps: detecting the switching off of the vehicle, and circulating dry air through the air dryer (8).

Description

Compressed air treatment device for motor vehicles and is a

description

The invention relates to a compressed air treatment device for motor vehicles, with an electronic control device and a regeneration device, the regeneration device being controlled by means of the electronic control device. The invention further relates to a compressed air treatment device for motor vehicles, with an electronic control device, a regeneration device and an energy source. The invention also relates to a method for the regeneration of the drying agent of an air dryer. Air supply system of a motor vehicle.

From DE 44 21 575 AI is such a compressed air preparation device for vehicle compressed air systems known. DE 44 21 575 AI is based on the idea of designing both the pressure regulator and the multi-circuit protection valve in an electro-pneumatic manner and providing elements within a common housing which function both of the pressure regulator and that of the multi-circuit protection valve and possibly one additionally arranged dryer.

From DE 44 21 575 AI there is no possibility to carry out a controlled regeneration after the vehicle has been parked.

In contrast, the invention has for its object to provide a compressed air treatment device by means of which it is possible to provide a regenerated dryer when starting a vehicle, preferably due to the regeneration processes to be carried out not to a complete emptying or an essentially emptying of energy sources Motor vehicle, such as batteries or accumulators in particular.

This object is achieved by a compressed air treatment device for motor vehicles, with an electronic control device and a regeneration device, the regeneration device being controlled by means of the electronic control device, the compressed air treatment device being further developed in that after the motor vehicle has been switched off, the regeneration device can be controlled by the control device in such a way that at least one regeneration cycle can be carried out. This further development according to the invention of the generic compressed air treatment device enables controlled regeneration after the vehicle has been parked. bar. In the context of this invention, exhibiting the motor vehicle in particular also means parking the motor vehicle.

The control device is preferably supplied with power by means of a supply line which cannot be switched off when the motor vehicle is switched off. This preferred embodiment of the invention makes it possible to still supply the control device responsible for the regeneration process with current or energy even after the motor vehicle has been switched off. If a detection device is preferably provided which detects the turning off of the motor vehicle, it is possible to start the regeneration process immediately after the motor vehicle has been switched off. If a switching device is preferably provided, by means of which the electronic control device can be separated from the power supply, emptying of an energy source of the motor vehicle, such as, in particular, a battery or an accumulator, is prevented or the energy consumption is minimized. In the context of this invention, the separability from the power supply means in particular that the control device can be switched off or is switched off. The switching device is preferably integrated in the electronic control device.

Furthermore, the switching device is preferably a time clock by means of which the disconnection from the voltage supply is made possible after a predefinable time. If a pressure sensor is preferably provided, by means of which pressure-dependent control of the at least one regeneration cycle is made possible, an optimized regeneration can be carried out depending on the motor vehicle or the pressure status of the vehicle compressed air system. Preferably, the detection of the switching off of the Motor vehicle on a switchable supply line instead of or via a data line.

The object is further achieved in that a compressed air treatment device for motor vehicles with an electronic control device, a regeneration device and an energy source is further developed in that the electronic control device can be connected to the energy source via a permanent supply line. This measure according to the invention makes it possible, even after the motor vehicle has been switched off, to control the regeneration device by means of the electronic control device. In the context of this invention, permanent supply line means in particular a supply line which cannot be switched off by switching off the motor vehicle.

A detection device is preferably provided which detects the turning off of the motor vehicle; the detection takes place either directly on a switchable supply line or on a data line. The connectivity of the control device takes place after detection of the switching off or switching off of the motor vehicle in that the control device is either connected to a permanent power supply line or the power supply line is switched to the permanent supply line. The control device preferably comprises a switching device by means of which the control device can be separated from the supply line. In the context of this invention, the separability of the control device from the supply line means in particular that the control device can be switched off. Through this preferred embodiment of the invention, it is possible to Completion of the regeneration cycle or regeneration to prevent further energy consumption, so that the energy source of the vehicle is not completely emptied after the vehicle has been switched off.

A compressed air supply system is preferably provided with one of the aforementioned compressed air treatment devices. Furthermore, a power tool is preferably provided with a corresponding compressed air supply system.

The object is further achieved by a method for regenerating the drying agent of an air dryer of a compressed air supply system of a motor vehicle, which has the following method steps:

- detecting the issuance of the vehicle, and

- Dry air flowing through the air dryer.

This method according to the invention makes it possible, even after the vehicle has been switched off, to regenerate the drying agent of an air dryer of a compressed air supply system of a motor vehicle. If, preferably for the flow of dry air through the air dryer, an air flow is generated through a bypass which is arranged parallel to a non-return valve of a circuit protection device, it is possible to add the dry compressed air contained in the circuit protection device or in corresponding storage containers for regeneration of the drying agent of the air dryer use. The non-return valve is preferably a non-return valve. Furthermore, the air flowing through the air dryer is preferably also released, in particular into the ambient air. Furthermore, the air flow through the bypass is preferably brought about by switching on a regeneration solenoid valve by an electronic control device. This preferred embodiment of the method according to the invention enables a particularly simple procedure. If the regeneration preferably takes place for a predetermined period of time, it is possible to take precautions so that the energy source of the motor vehicle is not emptied. If the regeneration is preferably pressure-dependent, an optimized process control can be carried out. If the pressure in a circuit protection supply line and / or in a circuit protection outlet line is measured for this purpose, the end point in time of the regeneration can be determined very easily.

A detection device and a switching device are preferably integrated in the electronic control device of the air treatment system. The detection device makes it possible to detect the disconnection process of the disconnectable supply line, specifically directly on a switchable supply line or via a data line. It is then possible for a follow-up time to obtain the energy for energizing a regeneration solenoid valve from a second electrical supply line which is not switched off. A post-regeneration process can be carried out in this way. By means of an additionally integrated switching device, the control device can then disconnect itself from the electrical supply line that is not switched off and thus prevent further power consumption.

The invention is described below without restricting the general inventive concept on the basis of exemplary embodiments. examples described with reference to the drawings, to which reference is expressly made with regard to all details according to the invention not explained in detail in the text. Show it:

1 schematically shows a compressed air supply arrangement according to the invention,

2 shows the course of a time-dependent post-regeneration, and

3 shows the sequence of a pressure-dependent replenishment regeneration.

The compressed air supply system shown schematically in FIG. 1 can preferably be used for use in vehicle compressed air systems. An air compressor 20 is connected to a delivery line 23 with the pressure! associated with. The compressed air treatment system comprises, in a common or multi-part housing 9, an integrated pressure regulator 10 with a pressure regulator solenoid valve 18, a regeneration device 11 with a regeneration solenoid valve 19, a control device 6, a circuit protection device 7 and an air dryer cartridge 8. The central supply line 15 supplies the circuit protection device 7, the air is distributed over several circles, which are not shown. The air is available in lines 17, 17a, 17b and 17c with different pressures, if necessary, for the consumer groups. The compressed air can then be stored in storage containers 24, which can be connected to lines 17 to 17c. In Fig. 1, only a reservoir 24 is shown, which is connected to the line 17c. The pressure in the central supply line 15 is measured by the pressure sensor 21. It is possible to measure the circuit-associated pressures with pressure sensors, which are not shown. The housing 9 has a central plug and a vent 22. The control unit 6 is supplied with energy via the central plug. From the energy source 26, which normally consists of one or two batteries connected in series, at least one control ground line 5 goes from the negative pole 28 to the control unit 6 via the plug 29. An additional power ground line 5 a is preferably provided, which is connected to the control unit 6. From the positive pole 27 of the energy source 26, at least one supply line 4, which is not switched off when the motor vehicle is switched off, is connected to the control unit 6 by the energy source 26. Furthermore, a second supply line 3 is shown, which can be switched off by switching the vehicle off or on, and which is connected to the control unit 6. The supply line 3, which can be switched outside the compressed air preparation device with the switch 2, is also connected to the control unit 6 via the plug.

The control unit 6 comprises a detector 1 which, if necessary with the aid of a measuring line 12 additionally installed in the control unit, detects the opening of the switch 2. A serial data line 25 is also connected to the control unit 6. Via the serial data line 25, the control unit receives important information, such as the engine speed and the vehicle speed, which are important for the operation of the compressed air treatment system. It is also possible for the control device 6 to transmit important information, such as pressures in the brake circuits, to the driver and to control devices via the serial data line 25. The control unit 6 can control the circuit protection device 7 electrically via the lines 16 and 16a. The control device 6 can also switch the pressure regulator 10 on and off via the pressure regulator control line 13 of the pressure regulator solenoid valve 18, which controls the pressure regulator 10. The reference pressure for the pressure regulator control is the pressure in the circuit protection supply line 15. Instead of the pressure in the circuit protection supply line, an unlimited circuit pressure, which prevails in one of the circuit protection output lines 17 to 17c, can also be used. If the cut-off pressure of the pressure regulator 10 is reached, the compressor 20 no longer conveys the air through the air dryer cartridge 8 into the circuit protection device 7, but directly to the vent 22 into the open. The pressure prevailing in the circuit protection device 7 is retained by a check valve.

The regeneration solenoid valve 19 is switched over the regeneration control line 14 in such a way that the air for the post-regeneration process can flow past the check valve via the line from the circuit protection device 7 in order to flow through the dryer cartridge 8 to the vent 22. The returning air absorbs the water taken up in the drying agent of the dryer cartridge during the conveying phase and thus dries the drying agent. In this way it is achieved that the desiccant can again absorb water from the conveyed air during the next conveying phases. In this way, regeneration is possible after the vehicle has been switched off.

The switching device 1 a contained in the control device 6 enables the control device 6 to be automatically switched off from that which was not switched off when the vehicle was switched off Supply line 4 as soon as the post-regeneration has ended. The regeneration regeneration starts after switch 2 is opened and the vehicle is thus parked. This makes it possible to prevent electricity consumption when the vehicle is parked for a longer period. The switching device la can be designed as a relay contact or as a semiconductor switch. Detection of the detector 1 relating to the switching off of the vehicle can either take place via the switchable supply line 3 or via the data line 25.

Fig. 2 shows schematically the timing of a post-generation, which is time-dependent. After opening switch 2, the voltage on measuring line 12 coincides. The upper diagram in FIG. 2 shows the voltage drop that the detector 1 detects when tapping, as shown in FIG. 1. This information is then fed to the control unit, which is opened as a synonym for switch 2 and is shown programmed or parked electronically linked to the vehicle. Now the post-regeneration process is started over a period of time dt, ie from a time t1 to t2, as shown in the middle diagram in FIG. 2. In this case, the regeneration solenoid valve 19 is switched so that the post-regeneration process is initiated. After a time dt, ie at time t2, the switching device la switches off the control device 6, as is shown in the lower diagram in FIG. 2.

As shown in Fig. 3, which shows a schematic representation of the regeneration process depending on a pressure drop, the regeneration process is also possible depending on the pressure. The top diagram of FIG. 3 corresponds to the top diagram of FIG. 2, ie the voltage drop that the detector 1 measures due to the opening of the switch 2. The second uppermost diagram in FIG. 3 represents the pressure drop that is measured at sensor 21. At the time tl, that is to say at the time of the start of the post-regeneration by energizing the solenoid valve 19, the pressure, which is measured in one of the circuit protection output lines 17 to 17c by the pressure sensor 21, begins to drop. The drop in pressure is shown linearly in FIG. 3. However, the pressure drop can drop in another time-dependent function. When a pressure Pl is reached, the post-regeneration is ended. This is done in that the energization of the solenoid valve 19 is ended. This is preferably done by switching off the control unit 6.

In an exemplary embodiment not shown, the detector 1 is connected to the serial data line 25. This has the advantage that the electronic control unit 6 does not have to be connected directly to the supply line 4 which can be switched off. This line to the control unit 6 can therefore be omitted. The switch-off process of the vehicle can also be detected on the serial data line 25. Otherwise, this embodiment corresponds to the aforementioned embodiment.

Reference sign list

1 detector 28 negative pole as switching device

2 switches

3 switchable supply lines

4 supply lines that cannot be switched off

5 control ground line

5a power ground line

6 control unit

7 Circuit protection device

8 air dryer cartridges

9 housing

10 pressure regulators

11 regeneration device

12 measuring line

13 pressure regulator control line

14 Regeneration control line 5 Circuit protection supply line 6 Control line of the circuit protection device 6a Measuring line of the circuit protection device 7 Circuit protection output line 7a Circuit protection output line 7b Circuit protection output line 7c Circuit protection output line 8 Pressure regulator solenoid valve 9 Regeneration solenoid valve 0 Compressor 1 Pressure sensor 2 Venting device 5 Data source 7 Serial 7 Plus cable 3 serial 4

Claims

claims

1. compressed air treatment device for motor vehicles, with an electronic control device (6) and a regeneration device (11), wherein the regeneration device (11) is controlled by means of the electronic control device (6), characterized in that after the motor vehicle has been turned off by means of the control device (6) the regeneration device (11) can be controlled in such a way that at least one regeneration cycle can be carried out.

2. Compressed air treatment device according to claim 1, characterized in that the power supply to the control device (6) by means of a supply line (4) which cannot be switched off.

3. Compressed air treatment device according to claim 1 and / or 2, characterized in that a detection device (1) is provided which detects the issuing of the motor vehicle.

4. Compressed air treatment device according to one or more of claims 1 to 3, characterized in that a switching device (la) is provided, by means of which the electronic control device (6) can be separated from the power supply.

5. Compressed air treatment device according to claim 4, characterized in that the switching device (la) is a timer by means of which the disconnection from the voltage supply after a predetermined time is made possible.

6. Compressed air treatment device according to one or more of claims 1 to 5, characterized in that a pressure sensor (21) is provided, by means of which a pressure-dependent control of the at least one regeneration cycle is made possible.

7. compressed air preparation device for motor vehicles, with an electronic control device (6), a regeneration device (11) and an energy source (26), characterized in that the electronic control device (6) with the energy source (26) via a permanent supply line (4) can be connected is.

8. compressed air treatment device according to claim 7, characterized in that a detection device (1) is provided which detects the issuing of the motor vehicle.

9. compressed air treatment device according to claim 7 and / or 8, characterized in that the control device (6) comprises a switching device (la), by means of which the control device (6) from the supply line (4) is separable.

10. compressed air treatment plant with compressed air treatment device according to one or more of claims 1 to 9.

11. Motor vehicle with pressure! uftSupply s! age according to claim 10.

12. Process for the regeneration of the desiccant of an air dryer (8) a pressure! Air supply system of a motor vehicle with the following procedural steps:

Detecting the handing out of the vehicle,

- Flow of dry air through the air dryer (8).

13. The method according to claim 12, characterized in that for the flow of dry air through the air dryer (8) an air flow is generated by a bypass, which is arranged parallel to a non-return valve of a circuit protection device (7).

14. The method according to claim 12 and / or 13, characterized in that air flowing through the air dryer (8) is also omitted.

15. The method according to claim 13 and / or 14, characterized in that the air flow through the bypass by switching a regeneration solenoid valve (19) through an electronic control device (6) is produced.

16. The method according to one or more of claims 13 to 15, characterized in that the regeneration takes place for a predetermined period of time.

17. The method according to one or more of claims 13 to 16, characterized in that the regeneration is pressure-dependent.

18. The method according to claim 17, characterized in that for this purpose the pressure in a circuit protection supply line (15) and / or in a circuit protection output line (17, 17a, 17b, 17c) is measured.